CN209902864U - Optical lens milling and grinding processing equipment - Google Patents

Abstract

The utility model provides an optical lens piece mills and grinds processing equipment, the utility model relates to a mill and grind processing equipment technical field, optical lens piece mills and grinds processing equipment and includes: the lathe comprises a lathe main body, sliding grooves are formed in the outer walls of the left side and the right side of the lathe main body, the lathe main body comprises a processing assembly located above the lathe main body, the processing assembly comprises a handle, a grinding roller, side plates and sliding rods, the handle is welded to the center above the processing assembly in a laser mode, the grinding roller is provided with at least three grinding rollers which are horizontally and equidistantly distributed at the bottom of the processing assembly, the grinding rollers and the processing assembly are integrated through electric arc welding, the side plates are provided with two blocks which are respectively and vertically welded to the center positions below the left side and the right side of the processing assembly, and; the rear end of the discharging component is fixedly provided with an inserting block integrated with the discharging component; the beneficial effects of the utility model reside in that: the efficiency of lens milling is accelerated, and the amount of manual labor is reduced/the lenses are collected and protected in time.

Description

Optical lens milling and grinding processing equipment

Technical Field

The utility model belongs to the technical field of milling and grinding processing equipment technique and specifically relates to an optical lens piece mills and grinds processing equipment is related to.

Background

In the machining center, a process of machining by using a milling machine and a grinding machine is called milling, and the milling machine is a machine tool that mainly uses a milling cutter to machine various surfaces on a workpiece. Typically the milling cutter rotational motion is the primary motion and the movement of the workpiece (and) the milling cutter is the feed motion. It can be used for processing plane, groove, various curved surfaces and gears. The milling machine is a machine tool for milling a workpiece by using a milling cutter. The milling machine can mill planes, grooves, gear teeth, threads and spline shafts, can also process complex molded surfaces, has higher efficiency than a planer, and is widely applied to mechanical manufacturing and repairing departments.

Present optical lens mills and grinds processing equipment, when carrying out the surface to the lens and milling, rely on the artifical removal that goes on the lens to guarantee that the surface of lens is milled completely and is ground, so not only waste time and energy to it is inefficient, again, the lens that has processed is not in time taken away, influences subsequent processing progress easily, and the lens is made by glass usually, if not good collection protection, easy breakage.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is: to the problem that prior art exists, provide an optical lens mills and grinds processing equipment, slide bar and the spout cooperation through the processing subassembly can the back-and-forth movement mill the lens and grind to the subassembly of unloading can be collected the lens and protect.

The to-be-solved technical problem of the utility model adopts following technical scheme to realize: an optical lens milling apparatus, the optical lens milling apparatus comprising:

the lathe comprises a lathe body, sliding grooves are formed in the outer walls of the left side and the right side of the lathe body, the lathe body comprises a processing assembly located above the lathe body, the processing assembly comprises a handle, a grinding roller, side plates and sliding rods, the handle is welded to the center above the processing assembly in a laser mode, the grinding roller is provided with at least three grinding rollers which are horizontally and equidistantly arranged at the bottom of the processing assembly, the grinding rollers and the processing assembly are integrated through electric arc welding, the side plates are provided with two grinding rollers which are respectively and vertically welded to the center positions below the left side and the right side of the processing assembly, and the sliding rods are welded to the centers of the;

the subassembly of unloading, the subassembly rear end of unloading is fixed with the inserted block as an organic whole rather than, just the inserted block inserts the preceding downside of lathe main part, it is fixed with lathe main part through the inserted block grafting to unload the subassembly, just the subassembly of unloading includes blanking case, riser and foam-rubber cushion, blanking case welded fastening is at the subassembly end of unloading, just the riser is arranged along blanking case left and right sides top and the subassembly left and right sides top of unloading, the riser is fixed through the spot welding mode with blanking case and the subassembly of unloading joint face, the foam-rubber cushion underrun solvent bonds in the upper surface center of unloading subassembly and blanking case.

Preferably, the centers of the upper surfaces of the sliding rods are provided with clamping grooves, and the two sliding rods respectively slide into the two sliding grooves and are clamped through the clamping grooves, so that the machining assembly is connected with the lathe body in a front-back sliding manner.

Preferably, the lathe body further comprises a baffle plate and a support plate, three hinges are fixed at the connecting part of the front lower end of the baffle plate and the lathe body through screws, the baffle plate is hinged to the front lower side of the lathe body through the hinges, and the support plate is welded to the rear end of the lathe body through laser.

Preferably, the front of the support plate is provided with a spring and a clamping plate, one end of the spring is fixed on the front surface of the support plate in a spot welding mode, the other end of the spring is fixed on the back of the clamping plate in a spot welding mode, and the clamping plate is connected with the support plate through the spring.

Preferably, the two sides of the upper end of the baffle, which are close to the lathe body, are provided with a plug pin and a connecting plate which is positioned above the space between the lathe body and the baffle, the plug pin penetrates through one end of the connecting plate and is inserted above the baffle, and the other end of the connecting plate penetrates through a fixed shaft with a bottom surface welded and fixed in front of the upper surface of the lathe body.

Preferably, lathe body still includes the connecting piece, just the connecting piece is located lathe body left and right sides below and is close to the one end of the subassembly of unloading, the connecting piece includes head rod and second connecting rod, and the end of second connecting rod and head rod runs through respectively in the front and back end of connecting piece, the head rod upper end is fixed through laser welding and lathe body bottom, just the second connecting rod upper end is fixed through laser welding and the subassembly bottom of unloading.

Compared with the prior art, the beneficial effects of the utility model are that:

according to the milling and grinding processing equipment for the optical lens, two sliding rods slide into two sliding grooves respectively and are clamped through clamping grooves in the upper surfaces of the sliding rods, a user holds a handle to slide the whole processing assembly back and forth along the sliding grooves, and a frosted roller at the bottom end of the processing assembly can remove uneven bubbles and impurities on the surface of the lens and can slide back and forth through the processing assembly, so that the position of the lens can be effectively prevented from being adjusted by a worker, each area on the surface of the lens can be milled and ground conveniently, and the processing efficiency of the lens is greatly improved;

after the lens processing is accomplished, the user directly pushes the lens that has been processed into the subassembly of unloading, the lens that gets into the subassembly of unloading will be along the subassembly of unloading to the end in slowly rolling and getting into the blanking case, and can play the effect of protection lens through the foam-rubber cushion wherein, avoid lens and the subassembly of unloading and blanking case direct contact and take place wearing and tearing, the riser through both sides can play the phenomenon that prevents the lens from both sides landing simultaneously and take place, utilize the blanking case to collect the lens, the effect of protection lens can be played again in the subsequent processing of equipment of not delaying like this.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of a part A of the present invention;

fig. 3 is a schematic structural view of the discharging assembly of the present invention.

The labels in the figure are: 1-a lathe body; 2-a chute; 3-a baffle plate; 4-a hinge; 5-a support plate; 6-a spring; 7-clamping plate; 8-machining the assembly; 801-a handle; 802-a sanding roller; 803-side plate; 804-a sliding bar; 9-a discharge assembly; 901-blanking box; 902-vertical plate; 903-sponge cushion; 904-insert block; 10-a connector; 101-a first connecting rod; 102-a second connecting rod; 11-a fixed shaft; 12-a connecting plate; 13-latch.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention will be described in detail with reference to the accompanying drawings and specific embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

As shown in fig. 1 to 3, an optical lens milling apparatus includes:

the lathe comprises a lathe body 1, sliding grooves 2 are formed in the outer walls of the left side and the right side of the lathe body 1, the lathe body 1 comprises a processing assembly 8 located above the lathe body, the processing assembly 8 comprises a handle 801, a grinding roller 802, side plates 803 and sliding rods 804, the handle 801 is welded to the center above the processing assembly 8 in a laser mode, the grinding roller 802 is provided with at least three grinding rollers and is horizontally and equidistantly arranged at the bottom of the processing assembly 8, the grinding roller 802 and the processing assembly 8 are integrated through electric arc welding, the side plates 803 are provided with two grinding rollers which are respectively and vertically welded to the center positions below the left side and the right side of the processing assembly 8, the sliding rods 804 are welded to the centers of the outer walls of the two side plates 803, clamping grooves are formed in the centers of the upper surfaces of the sliding rods 804, the two sliding rods respectively slide into the two sliding grooves 2 and are clamped through, three hinges 4 are fixed at the connecting part of the lower end of the front of the baffle 3 and the lathe body 1 through screws, the baffle 3 is hinged at the lower side of the front of the lathe body 1 through the hinges 4, the support plate 5 is laser welded at the rear end of the lathe body 1, a spring 6 and a clamping plate 7 are arranged in front of the support plate 5, one end of the spring 6 is fixed on the surface of the front of the support plate 5 in a spot welding manner, the other end of the spring is fixed at the back of the clamping plate 7 in a spot welding manner, the clamping plate 7 is connected with the support plate 5 through the spring 6, a lens to be processed is placed at the upper end of the lathe body 1, the baffle 3 and the support plate 5 at the front end and the back end of the lathe body 1 can play a role of closing the lathe body 1, the lens is prevented from sliding out during milling, the function of reinforcing the resilience of the support plate 5 can be played through, the sliding rod 804 can be prevented from running out of the sliding groove 2 when sliding through the clamping groove on the upper surface of the sliding rod 804, then a user holds the handle 801 to slide the whole processing assembly 8 back and forth along the sliding groove 2, the grinding roller 802 at the bottom end of the processing assembly 8 and the lens generate friction to remove impurities and bubbles on the surface of the lens, and the processing assembly 8 slides back and forth, so that the position of the lens can be effectively prevented from being adjusted by a worker, each area on the surface of the lens is milled and ground, and the processing efficiency of the lens is greatly improved;

in the embodiment of the utility model, the rear end of the discharging component 9 is fixed with an insert 904 integrated with the discharging component 9, the insert 904 is inserted into the lower front side of the lathe body 1, the discharging component 9 is fixed with the lathe body 1 through the insert 904 in an inserting manner, the discharging component 9 comprises a blanking box 901, a vertical plate 902 and a sponge pad 903, the blanking box 901 is welded and fixed at the end of the discharging component 9, the vertical plate 902 is arranged above the left and right sides of the blanking box 901 and above the left and right sides of the discharging component 9, the vertical plate 902 is fixed with the interface of the blanking box 901 and the discharging component 9 through spot welding, the bottom surface of the sponge pad 903 is bonded on the centers of the upper surfaces of the discharging component 9 and the blanking box 901 through a solvent, the upper end of the baffle 3 near the two sides of the lathe body 1 is provided with a bolt 13 and a connecting plate 12 positioned above the lathe body 1 and the baffle 3, the other end of the connecting plate 12 is penetrated by a fixed shaft 11 with the bottom surface welded and fixed in front of the upper surface of the lathe body 1, the connecting part of the lower end in front of the baffle plate 3 and the lathe body 1 is fixed with three hinges 4 through screws, the baffle plate 3 is hinged at the lower side in front of the lathe body 1 through the hinges 4, a user inserts the unloading assembly 9 into the lower side in front of the lathe body 1 through the inserting block 904, then, after the lens is processed, the user can draw out the plug pin 13 with the tail end inserted above the baffle plate 3 from the top, so that the whole plug pin 13 is also pulled out from one end of the connecting plate 12, the upper end of the baffle plate 3 can be separated from the lathe body 1, then, the baffle plate 3 is shifted towards the rear side, the baffle plate 3 can rotate downwards along with the hinges 4 and can be directly poured on the upper surface of the unloading assembly 9, at this time, the lens that gets into subassembly 9 of unloading will roll slowly to the end and get into blanking case 901 along subassembly 9 of unloading in, and can play the effect of protection lens through wherein foam-rubber cushion 903, avoid the lens to take place wearing and tearing with the subassembly 9 of unloading and blanking case 901 direct contact, can play the phenomenon that prevents the lens from both sides landing through the riser 902 of both sides simultaneously and take place, utilize blanking case 901 to collect the lens, do not delay subsequent processing of equipment like this and can play the effect of protection lens again.

In this embodiment, lathe body 1 still includes connecting piece 10, and connecting piece 10 is located lathe body 1 left and right sides below and is close to the one end of unloading subassembly 9, connecting piece 10 includes head rod 101 and second connecting rod 102, and the end of head rod 102 and head rod 101 runs through respectively in the front and back end of connecting piece 10, head rod 101 upper end is fixed with lathe body 1 bottom through laser welding, and second connecting rod 102 upper end is fixed with unloading subassembly 9 bottom through laser welding, through connecting piece 10, with head rod 101 upper end welded fastening in lathe body 1's below, second connecting rod 101 welds the bottom at unloading subassembly 9, can play like this and increase the connectivity between unloading subassembly 9 and lathe body 1, the phenomenon of avoiding unloading subassembly 9 to drop takes place.

The above description is only exemplary of the present invention and should not be taken as limiting, and all changes, equivalents, and improvements made within the spirit and principles of the present invention should be understood as being included in the scope of the present invention.

Claims (6)

1. An optical lens milling and grinding device, characterized in that the optical lens milling and grinding device comprises:

the lathe comprises a lathe body (1), sliding grooves (2) are formed in the outer walls of the left side and the right side of the lathe body (1), the lathe body (1) comprises a processing assembly (8) located above the lathe body, the processing assembly (8) comprises a handle (801), a grinding roller (802), side plates (803) and a sliding rod (804), the handle (801) is welded to the center above the processing assembly (8) in a laser mode, the grinding roller (802) is provided with at least three grinding rollers which are horizontally and equidistantly distributed at the bottom of the processing assembly (8), the grinding roller (802) and the processing assembly (8) are integrated through arc welding, the side plates (803) are provided with two grinding rollers which are respectively welded to the center position below the left side and the right side of the processing assembly (8) in a perpendicular mode, and the sliding rod (804) is welded to the centers of;

the lathe comprises a discharging assembly (9), wherein an inserting block (904) integrated with the discharging assembly (9) is fixed at the rear end of the discharging assembly (9), the inserting block (904) is inserted into the lower side of the front face of a lathe body (1), the discharging assembly (9) and the lathe body (1) are fixedly inserted through the inserting block (904), the discharging assembly (9) comprises a discharging box (901), a vertical plate (902) and a sponge pad (903), the discharging box (901) is fixedly welded at the tail end of the discharging assembly (9), the vertical plate (902) is arranged above the left side and the right side of the discharging assembly (901) and above the left side and the right side of the discharging assembly (9), the connecting face of the vertical plate (902) and the discharging box (901) is fixed in a spot welding mode, and the bottom face of the sponge pad (903) is bonded to the centers of the upper surfaces of the discharging assembly (9) and the discharging box (901) through.

2. An optical lens milling and machining apparatus according to claim 1, wherein: the center of the upper surface of each sliding rod (804) is provided with a clamping groove, and the two sliding rods (804) respectively slide into the two sliding grooves (2) and are clamped through the clamping grooves, so that the machining assembly (8) is connected with the lathe body (1) in a front-back sliding mode.

3. An optical lens milling and machining apparatus according to claim 1, wherein: the lathe body (1) further comprises a baffle (3) and a support plate (5), three hinges (4) are fixed at the connecting position of the lower front end of the baffle (3) and the lathe body (1) through screws, the baffle (3) is hinged to the lower front side of the lathe body (1) through the hinges (4), and the support plate (5) is welded to the rear end of the lathe body (1) in a laser mode.

4. An optical lens milling and machining apparatus according to claim 3, wherein: the spring (6) and the clamping plate (7) are arranged in front of the support plate (5), one end of the spring (6) is fixed on the front surface of the support plate (5) in a spot welding mode, the other end of the spring (6) is fixed on the back surface of the clamping plate (7) in a spot welding mode, and the clamping plate (7) is connected with the support plate (5) through the spring (6).

5. An optical lens milling and machining apparatus according to claim 4, wherein: the lathe is characterized in that two sides of the upper end of the baffle (3) close to the lathe body (1) are provided with a plug pin (13) and a connecting plate (12) located above the upper portion between the lathe body (1) and the baffle (3), the plug pin (13) penetrates through one end of the connecting plate (12) and is inserted above the baffle (3), and the other end of the connecting plate (12) penetrates through a fixed shaft (11) with a bottom surface welded and fixed to the front of the upper surface of the lathe body (1).

6. An optical lens milling and machining apparatus according to claim 1, wherein: lathe body (1) still includes connecting piece (10), just connecting piece (10) are located lathe body (1) left and right sides below and are close to the one end of unloading subassembly (9), connecting piece (10) include head rod (101) and second connecting rod (102), and the end of second connecting rod (102) and head rod (101) runs through respectively in the front and back end of connecting piece (10), head rod (101) upper end is fixed with lathe body (1) bottom through laser welding, just second connecting rod (102) upper end is fixed with unloading subassembly (9) bottom through laser welding.

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